Food mixer



Feb. 6, 1945. H. M. A. STRAUSS ETAL 5 I FO0D MIXER I Original Filed July 7, 1939 6 Sheets-Sheet 1- Feb. 6, 1945. H. M. A. STRAUSS ET Al.

FOOD MIXER Original Filed July 7, 1939 '6 Sheets-Sheet 2 men 42/ SZraasS (71025077172 fvv'hazz 5' .3 Q QWM mu Feb. 6, 1945. H. M. A. sTRAus ETAL 2,368,897

FOOD MIXER Original Filed July 7; 1939 6 Sheets-Sheet '3 Feb. 6, 1945. H. M. A. s'rRAUs E1; AL ,368,897

FOOD MIXER Original Filed July 7, 1939 6 Sheets-Shut 4 M N I my u \QN Z a f 4 2 firm 772. Maison WAS."

Patented Feb. 6, 194.5

FOOD MIXER- Hermann M. Alfred Strauss, Chicago, and Watson D. Harbaugh, Evanston, Ill., assignors tov A- F. Dormeyer linois Mfg. 00., a corporation of Il- Original application July 7, 1939, Serial No.

Divided and this application October v 10, 1941, Serial No. 414,534

11 Claims.

The present application is a division of our earlier filed application, Serial No. 283,288, filed July 7, 1939, for improvement in Food mixer,

an improved operating. relation between the beaters and the contents of the mixing. bowl which reference to which is hereby made to the extent that a similarity of parts exists between the respective embodiments of the inventions.

The present invention relates generally to household appliances and more particularly to food mixers and like.

In the present invention, certain improvefood processin devices or the ments, new constructions and arrangements of parts are provided with regard to the general operation and to the functions performed by the mixer; to the speed control mechanism; to the transmission; to the manner in which the power unit is mounted; to the processing of fruit as by the extraction of juice; and to certain improvements enabling, manufacturing and inventory economies.

An object of the invention improved juice extractor for citrus fruits which removes all the juice and tender pulp free of any unpleasant tasting skin oil and rough pulp.

Another object of the invention is to provide an improved speed control for the motor which is also conveniently managed by the same hand by which the motor is moved from place to place.

Another object of the invention is to provide an improved support for the power unit wherein the power unit may be locked in any one of a number of positions above the bowl including one wherein the heaters are lifted high enough to clear the bowl without dripping outside of the bowl, and the whole device can be picked up by one'hand without need for varying any one'of the selective positions in which the power unit isdisposed.

Another object of the invention is to provide an improved power transmission wherein large powerlosses due to worm gearing at high speed stages is eliminated as in one embodiment of the.

invention, and all worm gearing is eliminated as in another embodiment of the invention, certain new and improved power transmission relations and economies in production being also accomplished. v

Another object of the 'ventionis to provide an improved detachable mounting for the power unit which eliminates conductive vibration and sound without permitting a freedom of movement that would cause contact between movin and stationary parts such as the heaters and the mixing bowl.

Another object 01' the invention is to provide is to provide an" V transmission housing and gears;

is selective for four different functions any one of which can be brought into operation readily in a very simple and easily understood way.

Another object of the invention is to provide an improved cooling system for the power unit of a food mixer wherein all ports are concealed from sight and located where there is little chance of foreign matter entering the motor compartment.

Another object of the invention is to provide an improved speed governor for fractional horsepower universal motors.

These being among the objects of the present invention, other and further objects will become apparent from the drawings herein, the. description relating thereto, and the appended claims.

Referring now to the drawings: Fig. 1 is. a side elevation, partly cut away, of

an electric food mixer of the household type embodying the invention with the heaters and bowl in place;

Fig. 2 is asection taken upon a vertical plane passing through the axis of the motor shaft and I characteristics of the power unit; 7

Fig. 3 is a section taken upon the line 3-3 showing in detail certain preferred structural Fig. 6 is a section taken upon the line 66 in Fig. 2; v

Fig. '7 is a section taken upon line 1-1 in Fig. 2;

Fig. 8 is a view similar to the front portion of Fig. 2 illustrating another embodiment of the 9-9 m Fig. 8;

Fig. 9 is a section taken upon line Fig. 10 is a section taken upon line lll- -lll in Fig.

.Fig. 11 is a section taken upon line -H in Fig. 8; y

' Fi'g. 12 is a section taken upon line l2-l2 in Fig. 2, and,

Fig. 13 is a side elevation of a preferred form of a food processing attachment, the like ofwhich the power unit is designed to operate.

Referring now to the drawings in further detail, a better understanding of "the description following will be bad if, as preliminary thereto, it

is noted that the food mixer 2|, illustrating. an embodiment of the invention as shown in Fig. 1, is made up of an assembly comprising a power unit broken lines 46.

2|, a base 22, a standard 23 upon the base with an intermediate member 24 on top of the standard 1 tegral lugs 33 that carry rubber feet 34 to support the base above the table top 35 and against slippage.

Upon its forward part the base 22 has cast integral therewith a boss 36 in which is formed a socket which receives, in journalled relation, a shaft 31 supporting the turntable 25 whereby the bowl 26 may be rotated about its center. The turntable 25 is constructed to receive, in supported relationship, bowls of any size which are likely to be used with the mixer.

In addition to the depending border flange 32 the base 22 is provided with a plurality of crisscross web-like flanges 40 underneath the top for structural rigidity.

Toward the rear of the base the casting is provided with sufiicient stock 42.to form an upwardly and rearwardly extending lug 43 which carries and supports substantially all the weight of the power unit 2|. At this time it might be well to point out that this lug is so positioned that the shaft 30 which it receives, provides a horizontal pivotal axis about which the power unit may be rotated with the support through an arc of approximately 45 degrees by which th lower ends 43 of the beaters clear the edge 44 of the smallest bowl 45 capable of use with the mixer. permost position of the heaters is indicated in In addition to this, the shaft 3|] lies within the horizontal plane of rotation of the lowermost part of the heaters 21 so that the beaters 21, when moved, come directly upward out of the bowl when the power unit is tilted. This relationship provides a construction wherein maximum accessibility may be had to any bowl 26 upon the turntable 25 without obstruction by the heaters 21, yet the heaters 2'! will not drip outside of the bowl but will drain back into the bowl as long as the bowl is left upon the turntable.

One of the chief objections to the conventional food mixers has been the interference offered by the heaters when the heaters are raised and the 'power unit is tilted up. Insame cases lateral accessibility to the interior of the bowl is hindered also.

In addition-to the lug 43 the rear portion of the base is provided with sufiicient stock 46 into which rack teeth 41 may be cut, as shown in Fig.

' 1, the rear end portion (not shown) of the base -The support 23 comprises a hollow cast metal.

member 50 having a flared bottom end 5| which, when the power unit is in lowered position, follows the contour of the. upper surface 3| of the base 22 as though it was originally secured thereto.

- Although. the support 23 may be of any sult- The upparallel to the lower part 22 of the raceway upon edge of the washer providesa raceway l6 conithe support 23 is bad with the intermediate mem= c eaper able design, we prefer to have it taper from both ends to an intermediate narrow portion 52 which portion is, in length, approximately the width of an average hand. In this way a user is subconsciously directed to grip the support near its center as distinguished from its ends when the unit is ot be lifted. This is desired because, in the gripping action, a means is brought into operation which prevents relative movement between the support and the base while the support is in the grasp of the user. This means comprises a latch lever 53 pivotally mounted as at 54 to the support with a portion 55 of the lever extending through a vertical slot 56 in the support, and beyond the outer contour at the point where it is most natural to grip the support.. This exposed portion of the lever is continuously urged outwardly by a light spring 51 as limited by a stop 60 at the top thereof. The lower end 6| of the lever is constructed. so as to mesh with the teeth 41 when the upper part 55 of the leveris pressed inwardly. The teeth are arranged upon a circle which clears the rear lower edge 53 of the support as the support tilts. The power unit and support are thereby free -to tilt'back and forth so long as the lever 53-is' not pressed but when pressed the lever engages the teeth and prevents relative movement between the support 23 and the base 22. This locking relationship may take place at any one of the teeth depending upon the degree of tilt. The end 6| of the lever 53, in combination with the upper face 64 of each tooth 41, holds the member in engagement so long as there are forces exerted by gravity or otherwise which tend to induce a tilting movement of the support. In this way not only does the lever '53 operate to rigidity the support relative to the base when the support is lifted, but also may be employed to support the power unit 2| at a tilt point intermediate'the tilt limits when the power unit is tilted vertically past the center of a shaft 30,1. e., towards the rear of the base 22.

Contact between the front edge 5| of the support and the base is prevented by a. set screw 65 7 provided with a Bakelite head 66. By'adjusting the set screw 65, the clearance between the end 43 of the heaters 21 and the bottom of the bowl 26 or 45 may also be regulated.

As more particularly shown in Fig. 2, the upper portion 61 of the support 23 has a bearing 10 with a double raceway cross-secticnally formed in the shape of a V. The intermediate member 24 is secured upon the top 61 of the support 23 by means of an integral raceway 1| upon the lower face of the intermediate member conically the support. A square headed and square shanked bolt 13 extends downwardly 0n the axis of the raceways mentioned and receives, upon the lower end thereof, a third member in the form of a modified washer '14 which slips over the lower end 15 of the square shank by which it is supported against rotation relative to the intermediate member and the bolt. The peripheral cally parallel'with theupper raceway." upon the support. Ball bearings 86 are disposed between the raceways and the lower end of the bolt receives upon it a nut and lock washer assembly 8| which, when tightened, loads the hearing by wedging the balls tightly in place whereby the intermediate member 24 is firmly secured upon the support.

Assemblage of the intermediate member 24 I h a 7 2,888,897 ber down and the support bottom up. The balls beaters as distinguished from beaters arranged in other ways and more readily lends itself to the support in cooperation with the purposes of the support 23 than other arrangements. The food I mixer runs very quietly s'ince, with this improved mounting the table top or' even the base 22 cannot serve as a sounding board. The

cured to the base by the shaft 30 which is forced horizontally through the support into the lug 43 on the base and again into the support on the opposite side of the lug. The assemblage is then ready to receive the power unit.

For the support of the power unit upon the intermediate member, as best shown in Figs. 2, 5 and 12, the intermediate member is provided with vertically and horizontally spaced troughs 82 and 83 in the body. structure thereof. which receive molded pieces of live rubber 84 and 85, respeccups 86 whereby at the forward end the power unit is supported entirely upon live rubber with sufficient space between the marginaledges 9| of the intermediate member and the motor housing to prevent contact therebetween during operation of the food mixer.

The trough 83 is provided at the rear end of the intermediate member and receives a molded piece of live rubber 85, as shown in Fig. 12, in which is bonded an arcuately bottomed "cup 92. Between the vertical sides 93 of the cup a horizontal pin 94 is supported. For engagement with the pin 94 the rear end of the power unit has cast therein a hook-like projection 95 opening upwardly and rearwardly to receive the pin-so that when the power unit is brought into engagement with the intermediate member for support unit which ends in a. lowering of the front end of the power unit whereby the front lugs drop into the cups 94 and are forced rearwardly by the inclined front edges 81 to hold the hook portion in place.

The vertical and horizontal spacing of the live rubber supports are. such that a plane passing through the three points thus provided pass between the center of weight of the powerunit 2! and the beaters 21 at a point 86 upon the beater shaft closer to the heaters than to the transmission housing supporting the beaters. This provides a floating support for the power unitis to be noted that the This construction has motor vibration and noise that is inherent, in universal type motorsis stopped at the live rubber and is not transmitted any furtheras is the case with conventional constructions.

The power unit 2| preferably comprises three main parts. The rear cover part I00 to which the rear end IOI of 'the handle I02 is secured as by a. flat headed screw I 03, the middle portion I04, in which the stator of the motor I05 is supported; and, the front cover portion I06 which will he hereinafter referred to as the transmission housing. The forward end I01 of the handle is secured to the transmission housing by a concealed screw I I0. All three of the housings are thereby the hook is inserted under the pin with an arcuate and rearward movement of the power.

preferably constructed of die-cast metal with an overall contour' somewhat bullet-shaped in its design and tapering at the rear.

The handle I 02 is'provided for lifting and managing the power unit and when it becomes desirable to remove the power unit from the intermediate member as when using the power unit to mix food in a container upon a stove, the engagement between the power unit 2| and the intermediate member 24 is released by raising the unit more at the front end then at the rear end after the front end has been raised to a certain distance the unit maybe moved forwardly.

.The handle I02 is preferably constructed of insulating material, such as molded phenolicv condensation compound and is preferably secured. rigidly in place at 'both the front andthe rear.

The handle I02 is preferably hollow, having side flanges III joined by an upper intermediate.

portion I I2, and, as illustrated in Fig. 2, is formed along gothic lines to provide a. distinctive appearance. Between the flanges are located web portions I I 3 which slidably support a stiff piano wire member II 5 which serves as a manual adjustment for the speed control mechanism. On the top of the handle at its forward end a slot I I6 is provided through which a block I I1 extends for movement forward and rearwardly along the handle. The portion of the block concealed within the handle is drilled to receive the control wire .I I5 to which it is rigidly secured by a set screw I20. The wire is roughened along its lower side to provide detents I 2I where its passes through the forward one of the webs I I3 to cooperate with a spring finger I22 securedto the web by bolt assembly I23.

At its rearward end the piano wire H5 is bent ing I00 as will now be described.

The speed control governor is housed within the conflnes'of the rear cover member and comprises a radially disposed disk I25 made of insulating material secured to the armature shaft I28 by a tight fitting insulating hub I21 and carrying fan' blades I80 integrally castaround its periphery. Centrifugally responsive fly weights comprising bshaped members I3I are mounted at their ends to the disk I26 on brackets I32 secured to the disk by rivets I83. The fly weights are three in number located *degrees from each other and the inner ends I84'of the fly weight members ride against a slip ring I35 made of insulation loosely mounted upon the shaft I28. The slip ring in turn is provided with an inner race I36 of a ball bearing I31, the outer race I40 of which supports a second ring I4I of insulating material having diametrically opposite radial slots I42 in the face thereof facing toward the rear of the housing.

A comparatively stiff arm I43 is secured to a stationary insulating element I44 in the rear housing and at an intermediate portion the arm .is apertured as at I45 (Fig.6) to receive the shaft I26 loosely withoutcontact therewith and is provided with lugs I46 on the forward side thereof engaging in the slots upon the insulating ring I4I. At its other end the arm is provided with a contact I41 and receives intermediate its ends the pressure of a spring I50 which collapses the'.

centrifugal train operating the slip rings to move the contact as far toward the disk I25 as possible.

In this particular construction the arrangement of parts and the spring to maintain the operating train in collapsed relationship brings about new and novel results relative to accuracy in speed control and enables the adjustment of the,

The other contact I51 of the speed govemor is carried by a. lever 160 made of insulating material. This lever is supported upon the insulating member I44 by a bracket IBI with a spring I62 urging the depending arm of the lever away from the contact I41. The upper end I63 of the lever is arcuately formed so that the contact I51 is displaced according to a straight line function of the handle II1 throughout the major portion of its travel. Upon the opposite side of the insulating member a'second contact I64 is supported and insulated from the first contact. The second contact I64 cooperates with a third lever "f faces upwardly and the other one I91adown- I wardly accomplishes a turning of the beater operate in conjunction with the upper face 20I I65 yieldably urged to engage the second contact I64 but limited in its movement in that direction by stop I06 so that when the handle I I1 is moved the full length of its-forward travel electrical contact between the second contact I04'and the third lever IE5 is interrupted but can be reestablished with a rearward movement of the handle II1 when upon occasion it is desirable to start the motor.

- simple in construction, easy to install and manipulate and which though separate and apart from the contacts I41 and I51 of the speed governor itself it is associated in such a way thata single control may be employed to both start the motor and regulateits speed.

The insulating plate I44 also supports the spring I84 (Fig. 2) that urges the self-aligning bearing member I85 into edge-supported contact with the circular opening I09 provided for that purpose in the rear housing. Thus the rear end of the armature assembly, the power unit and the start and stop control assembly provide a new and novel construction.

At the forward end, in the preferred embodiment, as illustrated in Fig. 2, the transmission is shown as powered by a left hand helical gear I cut upon'the front end of the armature shaft I53 and constructed so as to provide a resulting end thrust upon the armature which 15 .accomplish inventory and manufacturing econ- .provided with. a worm gear 203 that may b .slipped laterally into place before the sleeve shaf ture in a boss I92 cast integrally with the front wall I93 of the motor housing.

Referring now to Figs. 3 and 4 in conjunction with Fig. 2 the helical gear I90 is located axially in the center of the transmission housing. Spaced apart a distance equal to the distance between the beater shafts I94 are journaled two reduction gears I95 mating with and on'opposite sides of the helical gear I90. The axes of the reduction gears are located a distance above the axis of the helical gear upon the motor shaft enough to permit engagement with the helical gear without touching each other.

Beveled gears I96 are formed separately or integrally with the reduction gears upon the forward side thereof' and engage respectively a downwardly faced beveled gear I91a upon the beater shaft I94a and an upwardly facingbeveled gear l91b upon the beater shaft I941). The last two mentioned beveled gears, namely, those located upon the beater shafts are of a diameter greater than the distance between them.

In the practice of inventory economies the beveled gears I91 are identical in construction, and the reduction gears and their respective beveled gears are also identical in construction. The arrangement wherein the beveled gear I91b shafts I94a and I94bin opposite directions.

In facing the beveled gears I91. one up and one down they are provided with" shanks 200 which of the stock which limits their downward movement to locate their teeth in mesh'with the respective beveled gears upon the reduction gears. In this construction the beveled gears I91 can be made of a diameter to provide a greater gear reduction ratio than heretofore provided, so that between reduction gears I95 and the beveled gears I91 'a speed reduction of 15 to 1 may be provided. 'Suflicient room over the top of the gear arrangement is hereby afiorde'd in which to receive the condensers (not shown) at 202 (Fig. 2)

The transmission described is very simple in construction, being made of duplicate parts to omies and can be readily assembled and brought into operation. Moreover, the space afforded in the motor housing is utilized to the fullest advantage with ,the load of the motor being distributed in a substantially balanced relation to two driven trains of gears to drive the heaters! without any loss of power which has been conventionally encountered in worm gear drives between the motor and the heaters.

- One of the shafts I94, as shown in Fig. 3,

I94b supporting the beveled gear I91b is inserted the stock supporting the sleeve shafts I94 bein cut away at 204 for this purpose. wor drives the centrally'located ring gear 205 whic is iournaled in a washer 20G inserted in a longi tudinal' bore 201 held in place by a cap-scre- (not shown). The shank 2I0 of the ring gear ro tates freely in the washer 206 and receiv through the inside thereof a power shaft 2| I tha i-s toothed as at 2I2 to mesh with .teeth upon beveled gear 2|: that is slidably mounted fo aaeaaov which extends through an arcuate slot 2 (Fig. 2

forward and rearward movement upon the shaft 2| I. The ring gear is drilled as at 2 to receive driving pins 2l5 slidably therein as carried by the beveled gear 2l3. Although in some installations the beveled gear may be omitted and the power shaft and ring gear secured together, we prefer the relationship described wherein the worm drives the ring gear 205 and the ring gear drives the beveled gear 2! through the pins 2l5.

The beveled gear 2l3 meshes with the power shaft when moved forwardly and thereby the power shaft is driven from the worm. The power I support 23 where it is held in place n by a set screw 239.

shaft is held against axial displacement by the shoulder 216, to prevent the power shaft from being withdrawn or slipping forwardly from the transmission housing.

Movement of the beveled gear forwardly and rearwardly is accomplished through a yoke clutch 1ever 2|1 (Fig. 3) whose handle is indicated at 220 in Fig. 1 with the lever being locked in any 243 of the arm is widened to rest on the top of thepin 234 untilthe power unit is moved laterally to effect alignment. When alignment is had and the clutch handle 220 is moved forwardly, the

heaters 21 are moved automatically back and one position by the three spaced catches 22l upon the edge of the slot 222 through which the lever extends in the side of the housing to receive the handle.

The rearward catch is the position in which the handle is located when it is desirable to drive the Power take-off shaft. The middle catch is the neutral position while the forward catch is the position in which the handle is located when oscillation of the heaters inthe bowls is desired, which will now be described.

Abeveled gear 223 (Fig. 2) is mounted'upon a shaft 224 supported in a sleeve bearing 225 as held in place by a cap screw 226. The shaft and sleeve are preferably inserted through the bottom of the transmission housing where they are held in adjustment byan end thrust ball bearing 22! and the escape of lubricant from the transmission housing is prevented by gaskets 223 between the head of the capfscrew 226 and shoulder provided upon the transmission housmg.

In oscillating the power unit so that the heaters move back and forth in the bowl upon an arcuate path, a lever 23!! ispivotally mounted upon a bearing screw 23f where the lower part ofthe motor. housing is provided with a threaded boss 232 to-Teceive the screw. Bothends of the lever 230 are slotted to engage pins 233' and 234 upon the beveled gear 223 and an arm 235, respectively.

.Although it is possible to develop an oscilla-. tory movement by other means such as flexible shafts and direct gearing we prefer to employ the lever shown, because of its simplicity. .The

beveled gear 223, when driven by the. slidahle beveled, gear 2| 3 as when the handle 220-.is located in the front catch of the notches 22!, rotates carrying the pin 233 with it in a manner whereby the pin imposes an -oscillating movement on the arm 230. This-oscillating move-- ment of the arm 236 is opposed at the other end of the lever where the arm 235 engages in the slot at that end of the lever. The arm 235 is rigidly fixed relative to the-support 23 and serves to force the power unit by the leverage developed to move the heaters back and forth across the bowl between the opposite sides center of the thereof. a

The am 235 isconstructed so that a user can set the mixer to perform any one of four 'mixing functions depending upon mixing-requirements. The arm 235 comprises an upper arm portion 236 pivoted about a horizontal axis on a pin 231 rigidly in its set position... The position of the arm 236'in this instance is indicated at 246 in j forth from one side of the large' bowl 26 to the other, as alreadydescribed. a

When it is desirable to have tate constantly at a given position in a bowl, as when the smaller bowl'45 is used. the arm 236 is moved rearwardly, and, as provided'with an integral knife' catch 244 engageable in any one of three or more notches 245 in .the floor of, the intermediate member 24, the power unit is held broken lines. I

When upon occasion it is desirable to move the heaters back and forth by'hand free of restraint, the. arm 236 is moved forwardly to 24'| where it comes to rest, preferably between stops 250 spaced apart, in the preferred form, a distance greater than is necessaryv to keep the heaters from contacting the sides vof the large bowl'26.

' This is arranged for so that the user canpress the heaters against the-side of the bowl upon either side to scrape the sides free of such materials as. flour'which clings to the bowl without mixing.

Because of therepeated blows between the am 235 and the stops 250 in use, a loosening torque force for the stud 240 is created. To avoid this, the pivot pin 23! is located to one side of the center of the stud near the stops 250 and the stops =cient stock to prbvent loosening of the arm 236 are located to move very close to the stud. This 7 minimizes the torque force, and the locking rela- In this connection, due to the fact that the heaters rotion afforded by'the set screw 239 both prevent loosening of thestud-240 during use of the machine. Moreover, the stud is provided with millat the Joint, a spring and detent 251 being provided to hold the arm in any one of its selected positions."

' In this way a very simple 'deviceis employed for automatically. oscillating the power unit and boaters while they are in operation and for controlling them manually during operation or for any given function desired.

- Referring again to the transmission described,

it is to be noted thatin assembling it the sleeve shafts I54 are slipped into place from underneath the motor housing where they are held in place in anew and improved manner by gland nuts 255 threaded into a transverse boss 256 provided upon the lower wall of a transmissionhousing. The sleeve shafts I34 are journalled in bearing sleeves 251 and need not extend beyond the housing since with the particular embodiment illus-.

trated there is suflicient room provided for adequate bearing length without this being necessary. This provides a very neat appearing and carried by a lower and lmer t member :43 15 readily assembled construction with the gland a set screw 26I to motor housing. The beveled gears when not relationship and are locked thereto by lock screws 260 shown in Fig. 2 to provide a positive drive. The right hand sleeve shaft receives upon it the worm gear 203 that has been inserted in the opening 204 in the side of the casting stock where it is locked into place by any suitable means such as I drive it with the sleeve shaft I94b. The beveled gear 2I3 is then mounted thereon and the beveled gear 223 is slipped into place. Then the sleeve bearing 225 and shaft 224 are secured in (place.

The identical helical and beveled gears I95 and I96 are mounted upon the front wall I93 of the motor housing in bosses 262 and with these in place the transmission housing is slipped into place upon the reduced guide portion 263 of the I96 mesh with the beveled gears I31 upon the beater shafts. In this operation care must be taken to see the heaters interdigitate properly. Thereafter, the two housings are secured together by screw bolts 264 extending through received in threaded bores to support the gear housing upon the motor housing.

With regard to the use that is made ofthe power take-off the front housing is provided at its lower front end in the preferred embodiment shown in Fig. 2 with a power take-off socket 265 bounded by diametrically opposite portions of cylindrical surfaces 266 connected by parallel-flat surfaces 261. h

A vertical bore 210 is provided running through the center of the power take-off socket near its open end to receive a dowel bolt 21I as more particularly shown in Fig. 2. This bore extends upwardly into the handle portion I01 as at 212 where a compression spring 213 is provided to force the bolt downwardly. For a spaced distance above the socket 265 the bore 210 is narrowly slotted in the form of a key hole slot 214 to open upon theifront end of the gear housing.

In addition to the bore and bolt the gear housing is provided with a sliding door 215 operating in vertical parallel grooves 216 disposed upon both sides of the socket. At the top, the door 215 is apertured .211 to receive a winged bolt 280 which is threaded into the top of the bolt. This construction permits the socket 265 to be covered in use by the bolt 21I and door 215 being forced downwardly by the spring 213. Then, when upon occasion it is desired to use the socket, the winged bolt 280 is moved manually upwardly against the spring 213 to force the bolt and door upwardly to clear the socket for the reception of a food working attachment 28I (Fig. 13) therein. Once the food attachment is inserted in place the handle 280 is released and the bolt is urged downwardly to engage in a suitable keeper 282 provided upon the attachment to hold the attachment in place against and in engagement with the power takeoff shaft 2| I. h

The assembly of this construction is had by fastening the handle I02 in place with the screw I I inserted through an'enlarged upper end portion of the slot 214. After this has been done the spring 213 is inserted followed by the bolt 2H and both are'moved to their upper limits.

the gear housing to be- .door is slipped into The transverse bore in the bolt is exposed through the enlarged portion of the key hole slot. The place and the winged screw is threaded'through the door into the bolt until two spaced flats 283 on the screw 280align themselves with the narrow portion of the 4 slot. Thereafter the winged screw 280 is released and the door and bolt are ready for operation as already described, thus providing a very simple arrangement for covering and uncovering the power outlet socket 265 and for latching an attachment in place, all at the same time.

Referring now to the modification of the transmission as shown in Figs. 8, 9 and 10, a construction is illustrated wherein all worm gearing has been eliminated.

In this particular embodiment, a beveled gear 300 is mounted upon the end of the motor shaft I53a but is slightly less than the outer diameter of the bearing sleeve I so that the gear and the sleeve are withdrawn and assembled together v with regard to the housing whenever the armakant is shown in Fig. 10 as in a ture is removed from or mounted in the housing. In this particular embodiment two identical beveled gears 302 are employed of. a diameter filling the space on each side of the beveled gear 300 between the beveled and, the wall 303 of the transmission housing I06. This provides for maximum speed reduction at this stage.

This arrangement, however, places the centers of the beveled gears 302 a greater distance apart than the distance between centers 304 of the beater shafts. Although it is possible to employ hypoid gearing for driving the beater shaft, it is preferred to kant the shafts 305 supporting the gears 302 enough so that the axes of the shafts intersect the respective axes of the heaters. This I horizontal direction but it will also be appreciated that a similar kant to the shafts could be had vertically also if, upon occasion, it was desired.

Each shaft 305 also carries a pair ofsmall beveled gears 303a and 3061) in front of the larger ones with the beveltapering in the same direction as the larger gear bevel. The front gear 3061) of each pair engages the beveled gears 301 that are employed to drive the beater shafts and are constructed somewhat similar to the front end of the motor shaft. A sleeve bearing 3I0 for each of the shafts is located between the two smaller'beveled gears 306w and 3066 and is insertable into place and locked there in any suitable manner when the transmission is assembled. The beveled gear aces between the large bevel gear and the shaft driving bevel gear abuts the large gear 302 to engage upon opposite sides a common beveled gear 3 which, over a portion of its edge, runs within the confines of the large beveled gears 302 as at 3I2. In order to prevent scraping between the common beveled gear 3 and the large beveled gears 302, the large beveled gears are hollowed'out to clear the common beveled gear. Thus in this particular construction the gear trains are driven by a common gear 300 and are also kept in step by a second gear other than the driving gear.

The common gear 3 as shown in Fig.8 is mounted upon a shaft 3I3 along with a helical gear 3I4 of reduced diameter. The helical gear drives a primary power take-off shaft 3I'5 above it and a secondary power take-01f shaft 3I6 below it. The primary power take-oif shaft 3I5 in this particular construction is driven continuously although I have shown sufl'icient clearance for a clutch (not shown) to be employed to'release the sion, such is required.

primary power take-off, shaft from the gear train when upon occasion it is desired.

The secondary shaft 3I6 through two beveled gears 3H and 3I8 operates the oscillating device for the power unit which, in construction, is sufliciently similar to that -described already in connection with Figs. 2, 3 and 4 to be referred to by identical numerals indicating identical parts.

The shafts used in supporting-the gears are supported at both the front and'the rear end in suitable bosses 322 with suitable end'thrust conothers are provided where the fruit is heldor twisted by hand while a static ry part reams the soft pulp. This last type of e, tractor meets with the best results of the three general types, but is very slow and tedious. I 1

In the present invention we provide a simple but effective construction wherein a reamer, re-

of mechanical pressure. The apex of the reamer engages the orange half at one side of the center where the pulp issoft, and from there advances I into the orange along an are parallel with the structions 323 as shown in Fig. 8, except for the kanted-shafts 305 whose rear ends 324 are supported by ball bearings 325 engaging a concave ployed to obviate difllcult assemblies yet provide suificient centering support to maintain the shafts 305 against undue cocking and wear.

As in the case with the embodiment shown in Figs. 1 and 2 the beveled gearsv 301 driving the beater shaftsare identical but re'versely mounted to occupy a space upon-each side of the common gear shafting 3I3 in the stock of'the supporting structures. 4

In this particular embodiment, we do not choose-to cover the power take-off socket 330 but merely to provide a latch arrangement 33I for power attachments which may be inserted in place through the power. take-off socket-and held by a winged |bolt 332 in a manner similar to that described in conjunction with the embodiment illustrated in Fig. 2, a suitable lug 333 being provided upon the top of the bolt 334 to hold the spring 335 in position against displacement.

' With regard to cooling the motor, the openingv 252 out in the rear housing IIIII to receive the govto accommodate the arm 236 concealed vertically at full pressure. Movement of the member 342 andrelatlve presnearest side ofthe' orange until the axes of the orange and the reamer coincide, at which time the greatest pressure is applied and after which the pressure is rapidly removed to permit the rind to be removed and replaced by a fresh orange half,

I the power take-on drive being disconnected while 20 th replacement is being made.

The construction by which this is accomplished in its preferred form, comprises a reamer 340 provided with a cam surface 34I preferably upon its bottom side, and a female member! .pivotally mounted for movement toward and away from the reamer about an axis 343 transverse to the axis 344 of the reamer. The inner contour of the female member'342 is approximately the outer contour of a larger half orange (not shown) with a slight flaring away from the sides of the orange at the edges .345 so that theorange rind is expanded to and often beyond the breaking point sure between the member 342 and the reamr 343 is accomplished by a follower 346 upon the mem-' her 342 engaging the cam 3. The follower comployed within the teaching of the invention.

However, with the cam 34] located as shown upon the back side of the reamer 345 the leverage and pressure constitutes a closed circle which eliminates bearing end-thrust problems generally encountered in conventional squeezers. In the invention shown, the effective pressure circle inspaced inlets for air drawn into the power unit by the fan I 33. The outlet for the air is at the front end of the motor housing I34 upon the lower side thereof out of sight where a grill 254 is provided.

In this construction an advantage is had in rapidly cooling the motor even after the motor is stopped. The vertical spacingof the inlet openlugs and of the outlet opening 254 and the top inlet opening 252 along with the size of the open.- ing made possible by concealing them, provides a means for convectively circulating air over the heated parts, thus providing an improved means for cooling the power unit.

Referring now to Fig. 13 it is a well known fact that the rinds of citrus fruit contain oils that are unpleasant to the taste and detrimental to the' juice itself. Many of the conventional powerdriven extractors ream 'the fruit at high speeds; speeds in excess of 100 R. P. M; and in their op-. eration remove and mix these oils with the juice and the soft pulp. Other extractors are hand onerated and constructed to provide a direct squeeze under a rectilinearjmovement. With thesamuch of the desirable soft pulp is not removed. T Still cludes the reamer 345, the orange, the member 342, the arm 35I supporting the follower 341, the cam 3 and back tothe reamer again. The

' pressure exerted is unlimited within the strength of the material, preferably metal, used in construction of the unit and this pressure does not entail bearing end-thrust upon any of the supporting parts involved.

Considering now the construction of the bearings and the coacting parts of the juicer in further detail, thereamer is provided with-ashaft352 mounted in a frame member 353. The frame member 353 is supported-in the power take-oi! socket 265 described earlier, andwhen so mounted is held in place by the snap 1815011 2', which holds the end of the shaft 352 ,in-driven engag ment with the power take-ofl shaft 2". Th frame 353 also preferably removably supports a juice catch 354 and strainer 355 under the juicer.

This construction eliminates juice gearing conventionally employed in food mixers and permits the handle I32 to be'secured permanently in place on the power unit 23. The handle can be gracefully fashioned without making conventional allowances for 'iuicer bowls and other part: upon thetopofthemotor orgeathousidgmndallopcnmatter and become clogged are eliminated.

Two laterally extending horns 35B are formed integrally with the frame 353 and have coaxial holes 351 through their end portions which re-' ceive a shaft 360 that journals the female member 342 for its operation, as already described. The arm 35! extends from the member 342 between the two horns 356 where it is free to move between them in engagement with the cam 34!.

The cam 34l construction upon the reamer is such that for three-quarters of each turn of the reamer, the female member 342 is advanced to full pressure, rapidly at first and gradually slower toward the end, with a quick return to spread position over the remaining fourth of a turn.

The axis 343 of the shaft 360 may be vertical or horizontal or inclined to either. In the drawings we have shown it horizontal so that its correct relation with the other parts can be more readily understood. In actual practice, however, we prefer to have the shaft within thirty degrees of vertical so that the widest portion of the spread between the member 342 and the reamer 340 is located where an orange can be slipped readily into place and the rind removed, it being understood that this spread need not be as wide as one would think since the taper of the reamer and the wide arc of the mouth of the member 342 permit an orange half to he slipped into place with little trouble even with close clearances. This compared with rectilinear actions of conventional extractors permits of added advantages in having a short cam throw and extreme pressure within one revolution of the reamer or drive shaft.

The reamer 34!! itself. is constructed upon its working surface to press against the orange half without digging intothe pulp as it revolves, yet provides adequate channels for the -juice and crushed soft pulp to flow freely from the pressure areas.

To do this, the ribs 36l radiate from the apex 352. The leading faces 363 of the ribs are inclined, while the trailing faces 354 break sharply away from the ridge of the ribs preferably at right angles or along radial planes to the leading edges of the leading faces that follow. The incline squeezes without rending and the trailing faces provide channels permitting the juice to flow freely from the reamer without further restraint and to carry with it the crushed soft portions of the pulp which give orange juice its proper and pleasing body.

At its edges 365, the reamer is flared outwardly radially and back upon itself slightly to catch the edge of the orange rind if, upon occasion, the orange half not initially located correctly in place.- As a general rule, any upset of the orange half between the members that may take place will be toward the shaft 360. This side of the member 342 bears the greatest load, so upon the inside of the member 342, particularly, upon this side, a circular ridge 366 is provided. This permits some correction of the position of a misplaced orange rind when the rim 365 'on the realafner 34!] engages the cut edge of the orange ha r It has just been indicated that the area of greatest pressure is on the shaft side of the member. The construction shown permits the member 342 to be lightened measurably. Extra stock of strengthening metal is confined to that side where the greatest strain is borne under a short leverage throw and the member is lightened upon light upon that side.

2,363,897 ings on top of the housing that collect foreign the far side where extra pressure upon the member is negligible. The bite of the reamer starting in the orange half and working parallel with that side instead of directly against it makes the load Tins-arrangement also has an inherent advantage in preventing a turning of the orange between the member, since, for the orange to follow the rotation of the reamer, the thickness of the unjuiced'p'art of the half orange would have to enter thenarrower clearance between the members for any given position of the members except when they are fully closed.

Moreover, the construction of the ribs does not furnish much purchase for turning the oranges,

and this, in combination with the wedging inhibition, permits the oranges to turn very if any, in the squeezing operation. 5

In this way, a simple and unusually effective citrus fruit juice extractor is provided that is novel in its construction, operation, and the re sults attained.

Having thus described our invention, it will be apparent that certain improvements, new constructions and arrangements of parts are provided with regard to the general operation and to the functions performed by the mixer; to the speed control mechanism; to the transmission; to

the manner in which the power unit is mounted;

to the processing of fruit as by the extraction of juice; and to certain improvements enabling manufacturing and inventory economies.

Consequently, although we have shown and described certain preferred embodiments of the invention, it will be apparent to those skilled in the art that various uses; modifications and changes may be made, without departing from the spirit and substance of the invention, the scope of which is commensurate with the appended claims.

What is claimed is: 1. In a device of the class described, a housing, a power shaft mounted said housing, a pair of downwardly disposed tool operating shafts rotatably mounted in fixed hearings in the housing, means for detachably supporting a tool independently upon each shaft, a driving connection for positively driving said shafts in opposite directions intimed relation within said housing and including a plurality of pairs of identical gear members operable in separate trains from said power shaft, an interconnecting toothed gear driven by said power shaft for operating said.

trains of gears, andmeans operable from said power shaft foros'cillating said tool operating shafts in a horizontal plane.

:2. In a device of the class described, a housin a power shaft within said housing, a pair of tool operating shafts rotatably mounted in the housing, means for detachably supporting a tool independently upon each shaft, a driving connection between each of said tool operating shafts and said power shaft including a plurality of pairs of identical gears operable in separate trains with said housing and driven in the same direction, an interconnecting toothed gear on said power shaft for operating said trains of gears, said tool operating shafts revolving in opposite directions 3. In a device of the class described, a housin a pair of downwardly disposed shafts rotatably little,

said beveled gears, a second pair of identical gears driving the first pair, each pair being operable in separate trains, and an interconnecting toothed gear for driving said second pair of gears, said hafts being driven in opposite directions in timed relation, said power unit, shafts and gears all being within said housing.

4. An approximately 15 to 1' gear reduction device driving in opposite directions two parallel shafts spaced approximately one and one quarter inches apart comprising a beveled driving gear upon a motor shaft, two identical driven gear members comprising reduction gearing and outwardly facing bevel gearing, said driven gears being mounted for rotation upon canted shafts whose axes are normal to said shafts, identical beveled gears mounted reversely upon said shafts said first named shafts in engagement with said bevel gearing.

6. In a food mixer, a housing, a power shaft within sa'ld housing extending at an angle to the a motor within the housing, a motor shaft for the motor horizontally arranged, a pinion on said shaft, a pair of gears engaging said pinion, a pair 'of pinions rotatable with said gears, a pair of gears meshing with said last-named pinions, vertically extending tool holders rotatable with the last-named pinions, a worm on one of said holders, a third tool holder horizontally arranged and having a worm gear thereon for engaging said wormwhereby all of said holders may be operated simultaneously from said motor shaft. 9. In a device of the class described, a housin a motor within the housing, a motor shaft for the motor horizontally arranged, a pinion on said shaft, a train of gears operated from said shaft, said train comprising a pinion on said shaft, a gearmeshing with said pinion, a, pinion rotatable with said gear, a second gear meshing with the last-named pinion, a tool holder rotatable with said second gear, a worm on said holder, a tool holder member, a worm gear on said member, a shaft for said member, a second bevel gear slidable on said shaft, clutch means for locking said bevel gear to said-shaft, a third bevel gear meshing with said second-named gear, and a crank pin eccentrically mounted on the free face of said last-named bevel gear to which an oscillatin arm is adapted to be attached.

10. In a device of the class described, a housing, a power shaft journaled in said housing, a pinion on said power shaft, 21. pair of downwardly exvertical in normal operative position, a pinion on pinion in timed relation.

7. In a food mixer, a housing, a motor havin a substantially horizontal armature power shaft, a pinion on said power shaft, a pair of substantially parallel upright tool operatingshafts journaled in fixed bearings, twosets of speed reducing gears operated independently from said pinion for rotating said power operating shafts in opposite directions in timed relation, said motor, pinion,

gears and shafts all being substantially within said housing, and means operated from said power shaft for oscillating said housing in a horizontal plane.

8. In a device of the class described,

a housing,

tending shafts rotatabiy mounted in said housing; means for supporting a tool on each of said downwardly extending shafts, a pair of 'bevel gears secured to the upper ends of said downwardly extending shafts in relative reverse position, a second pair of shafts each having a gear on one end engaging said pinion, and each having on its other end a pinion engaging said bevel gears, respectively, for operating said downwardly extending shafts independently from said power shaft.

11. In a device of the class described, a power shaft, a housing surrounding said power shaft, a pinion on said power shaft, a pair of gears mesh- 5 ing with said pinion,- a pair of bevel pinions rotating with said gears, a pair of depending shafts each adapted to have a tool attached thereto, and a pair of bevel gears on the upper ends or said last-named shafts in relative reverse position and meshing. with said bevel pinions for,operating said depending shaft independently from said firstnamed pinion.

. HERMANN M. ALFRED STRAUSS.

WATSON D. HARBAUGH. 

